Common cardiovascular biomarkers can independently predict outcome of patients with Myelodysplastic syndromes

Dear


Dear Editor,
Myelodysplastic syndromes (MDS) comprise a heterogeneous group of clonal myeloid disorders characterized by ineffective hematopoiesis and varying degrees of leukemic transformation [1]. Several well-validated prognostic systems have been developed to help clinicians in predicting the disease course and design evidence-based treatment strategies [2]. However, in particular for lower-risk MDS, the prognosis assessment remains problematic as clinical strategies range from watchful waiting to early allogeneic stem cell transplantation [3]. In addition, with the exception of cytogenetics and only very recently somatic mutations [4], no other biomarkers have been incorporated in the algorithm of MDS prognosis, reflecting the largely uncharted pathobiology and heterogeneous course of MDS.
It has been reported that soluble biomarkers of cardiovascular disease (CVD) such as N-terminal pro-B-type natriuretic peptide (NT-proBNP) and growth differentiation factor-15 (GDF-15) may drive tumor growth and are apparently linked to cancer incidence [5,6]. Conversely, the decrease of highsensitivity C-reactive protein (Hs-CRP) levels after statin treatment unexpectedly resulted in a significant reduction of cancer mortality [7], while NT-proBNP and troponin T (TNT) levels were independently associated with all-cause mortality in patients with various malignancies, irrespective of the presence or not of CVD [8]. MDS typically affect elderly individuals carrying several comorbidities which can considerably influence clinical outcome and most patients succumb to conditions unrelated to MDS, with cardiovascular disease being the second most common cause of non-MDS-related mortality [9,10]. On top of epidemiological evidence, experimental data further support a pathophysiological link between clonal hematopoiesis of indeterminate potential (CHIP), a precursor of MDS, with CVD development through inflammationmediated accelerated atherosclerosis [11,12]. Despite the evidence of a bidirectional interplay between CVD and malignancies and the reported association of CVD biomarkers with all-cause mortality in cancer patients no study to date has addressed the value of CVD biomarkers in the prognostic assessment of MDS patients.
We performed a multicenter retrospective cohort study that included 105 patients with MDS. Serum levels of TNT, proBNP, GDF-15, and CRP, were measured in all patients. Survival analysis was performed using Kaplan-Meier estimates and multivariate analysis by using Cox regression. Overall survival (OS) was defined as the time from sampling to last follow-up or death from any cause and Leukemia-free survival (LFS) as the time from sampling to leukemic progression or death. Time to progression (TTP) was defined as the time from sampling to the date of disease progression. Details of the statistical analysis are presented in Supplemental Methods. The study was approved by the institutional review boards and it was performed in compliance with the Declaration of Helsinki.
In order to assess the power of GDF-15 and NT-proBNP as standalone prognosticators we determined the best cutoff levels for each parameter using maximally selected rank statistics. A GDF-15 value above the cutoff of 3727 ng/L was significantly associated with worse OS (p = 0.010) and TTP (p = 0.006, Supplemental Fig. 1), whereas the selected value for NT-proBNP (175 ng/L) could not act as a prognosticator for either OS or TTP (Supplemental Fig. 2).
We then addressed the prognostic power of the combination of these two cardiac markers by constructing a composite score (CardioScore) with the values of each NT-proBNP or GDF-15 above the aforementioned cutoff scored with 0.5. Cardioscore stratified patients in 3 categories (0, 0.5, and 1 point) with significantly different OS (p = 0.010) and TTP (p = 0.043, Fig. 1A, B) after adjustment for age and gender. We further evaluated whether combining IPSS-R [13], currently the most widely used prognostic system, with CardioScore could improve the prognostic power of the former. The combined IPSS-RC score, defined as the sum of IPSS-R score and CardioScore (Supplemental Table 1) resulted in upstaging of 12/96 (12.5%) of the patients (Fig. 1C) and performed better than IPSS-R, for both OS (p = 0.0008; AICc = 212.980 vs p = 0.0014; AICc = 214.422, respectively) and TTP (p = 0.0008; AICc = 332.735 vs p = 0.0018; AICc = 334.031, respectively, Supplemental Table 2).
The advent of molecular analysis led to the implementation of a molecular prognostic model for MDS, the IPSS-M [4]. To question whether the CVD biomarkers still hold their For discrete variables.
c Initial model included all statistically significant variables in univariate analysis and reduced step-by-step (P independent prognostic power when somatic mutations are included in the prognostic algorithm we performed a separate analysis in the selected group of patients with available mutational data (n = 29, Supplemental Table 3 Table 4). Our findings reveal a previously unrecognized association between circulating NT-proBNP and GDF-15 with MDS course and outcome and are in line with numerous reports showing a robust association between cardiac and cancer incidence and mortality [14][15][16]. Of note, risk factors for CVD and pre-existing CVD, as captured by the MDS-CI index in our analyses, did not affect OS and TTP, indicating that the correlation of survival with CVD biomarkers is rather linked to non-CVD-related or at least all-cause death. We acknowledge that our cohort was limited and the analysis was based only on baseline values not accounting for fluctuations on hematological parameters and CVD biomarkers that cannot be reliably captured retrospectively, whereas the very low number of CVD deaths precludes definite conclusions. However, the independent correlation of NT-proBNP and GDF-15 with TTP agues further for a potential causal association between CVD biomarkers and MDS pathobiology by forming a vicious cycle linking CVD with clonal hematopoiesis [17]. Future studies in large, prospectively annotated, cohorts are needed to definitely address whether this feed forward loop indeed exists and circulating cardiac biomarkers can lead to enhanced risk of progression to myeloid malignancies in individuals with CHIP and/or drive progression in MDS patients.